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  • Spin-valley locking and bul...
    Liu, J. Y.; Yu, J.; Ning, J. L.; Yi, H. M.; Miao, L.; Min, L. J.; Zhao, Y. F.; Ning, W.; Lopez, K. A.; Zhu, Y. L.; Pillsbury, T.; Zhang, Y. B.; Wang, Y.; Hu, J.; Cao, H. B.; Chakoumakos, B. C.; Balakirev, F.; Weickert, F.; Jaime, M.; Lai, Y.; Yang, Kun; Sun, J. W.; Alem, N.; Gopalan, V.; Chang, C. Z.; Samarth, N.; Liu, C. X.; McDonald, R. D.; Mao, Z. Q.

    Nature communications, 07/2021, Letnik: 12, Številka: 1
    Journal Article

    Abstract Spin-valley locking in monolayer transition metal dichalcogenides has attracted enormous interest, since it offers potential for valleytronic and optoelectronic applications. Such an exotic electronic state has sparsely been seen in bulk materials. Here, we report spin-valley locking in a Dirac semimetal BaMnSb 2 . This is revealed by comprehensive studies using first principles calculations, tight-binding and effective model analyses, angle-resolved photoemission spectroscopy measurements. Moreover, this material also exhibits a stacked quantum Hall effect (QHE). The spin-valley degeneracy extracted from the QHE is close to 2. This result, together with the Landau level spin splitting, further confirms the spin-valley locking picture. In the extreme quantum limit, we also observed a plateau in the z -axis resistance, suggestive of a two-dimensional chiral surface state present in the quantum Hall state. These findings establish BaMnSb 2 as a rare platform for exploring coupled spin and valley physics in bulk single crystals and accessing 3D interacting topological states.